AluScan: a method for genome-wide scanning of sequence and structure variations in the human genome

The ability to detect copy-number variation (CNV) and loss of heterozygosity (LOH) from exome sequencing data extends the utility of this powerful approach that has mainly been used for point or small insertion/deletion detection. We present ExomeCNV, a statistical method to detect CNV and LOH using depth-of-coverage and B-allele frequencies, from mapped short sequence reads, and we assess both the method's power and the effects of confounding variables. We apply our method to a cancer exome resequencing dataset. As expected, accuracy and resolution are dependent on depth-of-coverage and capture probe design. CRAN package 'ExomeCNV'. fsathira@fas.harvard.edu; snelson@ucla.edu Supplementary data are available at Bioinformatics online.

Mobile elements make up large portions of most eukaryotic genomes. They create genetic instability, not only through insertional mutation but also by contributing recombination substrates, both during and long after their insertion. The combination of whole-genome sequences and the development of innovative new assays to test the function of mobile elements have increased our understanding of how these elements mobilize and how their insertion impacts genome diversity and human disease.

Alu repeats are the most abundant family of repeats in the human genome, with over 1 million copies comprising 10% of the genome. They have been implicated in human genetic disease and in the enrichment of gene-rich segmental duplications in the human genome, and they form a rich fossil record of primate and human history. Alu repeat elements are believed to have arisen from the replication of a small number of source elements, whose evolution over time gives rise to the 31 Alu subfamilies currently reported in Repbase Update. We apply a novel method to identify and statistically validate 213 Alu subfamilies. We build an evolutionary tree of these subfamilies and conclude that the history of Alu evolution is more complex than previous studies had indicated.